Study on temperature regulation function of green spaces at community scale in high-density urban areas and planning design strategies

IF 6 2区 环境科学与生态学 Q1 ENVIRONMENTAL STUDIES
Liwen Sun, Changkun Xie, Yifeng Qin, Rebecca Zhou, Hao Wu, Shengquan Che
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引用次数: 0

Abstract

In recent years, the frequency of extreme high-temperature events has gradually increased. To better understand the impact of urban green space coverage's spatial pattern on land surface temperature (LST), this study selected three sample areas along the urban-rural gradient in Shanghai. Using LST inversion and resampling methods, LST data for different grid sizes were obtained for spring, summer, and winter in the 2010s, 2015s, and 2020 s. A boosting regression tree model was employed to determine the key indicators affecting LST and effective cooling thresholds. The impact of green quality, structure, and pattern at the community scale on LST was discussed, providing feasible suggestions for green space planning and design in different urban spaces. The study found significant differences in the spatial patterns of green areas and LST among the three sample regions. The quantity and integrity of green spaces in the Huangpu, Minhang, and Songjiang sample areas have progressively improved, with overall green coverages of 19 %, 38 %, and 43 %, respectively. As grid size increases, the relative influence of fractional vegetation coverage (FVC) on LST generally decreases, whereas the relative influence of green structure and patterns gradually increases. Taking the summer of the 2020 s as an example, the influence of FVC on the three study sample areas was 80.79, 83.36, and 87.18 at a 30 m grid size, which decreased to 48.87, 40.59, and 47.64 at a 120 m grid size. The green structure's impact rose from 13.09, 15.22, and 10.6–30.01, 51.82, and 38.5; the influence of green patterns increased from 6.12, 1.42, and 2.21–21.13, 7.6, and 13.86. Key indicators affecting LST include FVC (Fractional Vegetation Coverage), AREA (Green Patch Area), PD (Patch Density), COHESION (Patch Cohesion Index), and ED (Edge Density). High temperatures in summer are one of the ecological issues that need special attention in Shanghai's green space design. Setting the green space proportion to 35 % while avoiding fragmentation and low vegetation coverage can achieve effective cooling. This study's main advancement lies in utilizing machine learning algorithms to identify the principal green spatial pattern impact factors and key thresholds influencing LST at the community scale in Shanghai. The related results and proposed strategies provide a research framework and strong basis for special regulations in urban green space system planning concerning urban thermal environments. They offer references for urban renewal and new town planning to address climate change and urban high-temperature issues, such as clear requirements for optimal green space area at the community scale, community park spatial layout and quantity regulations, and urban park planning design suggestions. This study also highlights obstacles in the practical application of planning and design strategies, which can help avoid difficulties in implementing planning policies. It attempts to set goals for community-scale vegetation planning in China from a policy perspective and provides relevant recommendations.

高密度城区社区尺度绿地的温度调节功能及规划设计策略研究
近年来,极端高温事件的发生频率逐渐增加。为更好地了解城市绿地覆盖的空间格局对地表温度(LST)的影响,本研究沿上海城乡梯度选取了三个样本区域。利用 LST 反演和重采样方法,获得了 2010 年代、2015 年代和 2020 年代春、夏、冬不同网格大小的 LST 数据。采用提升回归树模型确定了影响 LST 和有效降温阈值的关键指标。讨论了社区尺度的绿化质量、结构和模式对 LST 的影响,为不同城市空间的绿地规划和设计提供了可行性建议。研究发现,三个样本区域的绿地面积和 LST 的空间格局存在显著差异。黄浦、闵行和松江样本区域的绿地数量和完整性逐步提高,总体绿化覆盖率分别为 19%、38% 和 43%。随着网格大小的增加,植被覆盖率(FVC)对 LST 的相对影响普遍减小,而绿化结构和模式的相对影响逐渐增大。以 2020 年夏季为例,在 30 米网格范围内,植被覆盖率对三个研究样本区域的影响分别为 80.79、83.36 和 87.18,而在 120 米网格范围内,植被覆盖率对三个样本区域的影响则分别降至 48.87、40.59 和 47.64。绿化结构的影响从 13.09、15.22、10.6-30.01、51.82、38.5;绿化模式的影响从 6.12、1.42、2.21-21.13、7.6、13.86。影响 LST 的主要指标包括 FVC(植被覆盖率分数)、AREA(绿色斑块面积)、PD(斑块密度)、COHESION(斑块凝聚指数)和 ED(边缘密度)。夏季高温是上海绿地设计中需要特别关注的生态问题之一。在避免破碎化和植被覆盖率低的同时,将绿地比例设定为 35%,可以实现有效降温。本研究的主要进展在于利用机器学习算法识别了上海社区尺度上主要的绿地空间格局影响因素和影响 LST 的关键阈值。相关成果和策略建议为城市绿地系统规划中有关城市热环境的专项规划提供了研究框架和有力依据。为城市更新和新城规划应对气候变化和城市高温问题提供参考,如明确社区尺度最佳绿地面积要求、社区公园空间布局和数量规定、城市公园规划设计建议等。本研究还强调了规划和设计策略在实际应用中的障碍,有助于避免规划政策在实施过程中遇到困难。本研究试图从政策角度为中国社区尺度植被规划设定目标,并提出相关建议。
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来源期刊
CiteScore
11.70
自引率
12.50%
发文量
289
审稿时长
70 days
期刊介绍: Urban Forestry and Urban Greening is a refereed, international journal aimed at presenting high-quality research with urban and peri-urban woody and non-woody vegetation and its use, planning, design, establishment and management as its main topics. Urban Forestry and Urban Greening concentrates on all tree-dominated (as joint together in the urban forest) as well as other green resources in and around urban areas, such as woodlands, public and private urban parks and gardens, urban nature areas, street tree and square plantations, botanical gardens and cemeteries. The journal welcomes basic and applied research papers, as well as review papers and short communications. Contributions should focus on one or more of the following aspects: -Form and functions of urban forests and other vegetation, including aspects of urban ecology. -Policy-making, planning and design related to urban forests and other vegetation. -Selection and establishment of tree resources and other vegetation for urban environments. -Management of urban forests and other vegetation. Original contributions of a high academic standard are invited from a wide range of disciplines and fields, including forestry, biology, horticulture, arboriculture, landscape ecology, pathology, soil science, hydrology, landscape architecture, landscape planning, urban planning and design, economics, sociology, environmental psychology, public health, and education.
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